//===- PTXMachineFuctionInfo.h - PTX machine function info -------*- C++ -*-==// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file declares PTX-specific per-machine-function information. // //===----------------------------------------------------------------------===// #ifndef PTX_MACHINE_FUNCTION_INFO_H #define PTX_MACHINE_FUNCTION_INFO_H #include "PTX.h" #include "PTXParamManager.h" #include "PTXRegisterInfo.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/DenseSet.h" #include "llvm/ADT/StringExtras.h" #include "llvm/CodeGen/MachineFunction.h" #include "llvm/Support/Debug.h" #include "llvm/Support/raw_ostream.h" namespace llvm { /// PTXMachineFunctionInfo - This class is derived from MachineFunction and /// contains private PTX target-specific information for each MachineFunction. /// class PTXMachineFunctionInfo : public MachineFunctionInfo { private: bool IsKernel; DenseSet<unsigned> RegArgs; DenseSet<unsigned> RegRets; typedef std::vector<unsigned> RegisterList; typedef DenseMap<const TargetRegisterClass*, RegisterList> RegisterMap; typedef DenseMap<unsigned, std::string> RegisterNameMap; typedef DenseMap<int, std::string> FrameMap; RegisterMap UsedRegs; RegisterNameMap RegNames; FrameMap FrameSymbols; PTXParamManager ParamManager; public: typedef DenseSet<unsigned>::const_iterator reg_iterator; PTXMachineFunctionInfo(MachineFunction &MF) : IsKernel(false) { UsedRegs[PTX::RegPredRegisterClass] = RegisterList(); UsedRegs[PTX::RegI16RegisterClass] = RegisterList(); UsedRegs[PTX::RegI32RegisterClass] = RegisterList(); UsedRegs[PTX::RegI64RegisterClass] = RegisterList(); UsedRegs[PTX::RegF32RegisterClass] = RegisterList(); UsedRegs[PTX::RegF64RegisterClass] = RegisterList(); } /// getParamManager - Returns the PTXParamManager instance for this function. PTXParamManager& getParamManager() { return ParamManager; } const PTXParamManager& getParamManager() const { return ParamManager; } /// setKernel/isKernel - Gets/sets a flag that indicates if this function is /// a PTX kernel function. void setKernel(bool _IsKernel=true) { IsKernel = _IsKernel; } bool isKernel() const { return IsKernel; } /// argreg_begin/argreg_end - Returns iterators to the set of registers /// containing function arguments. reg_iterator argreg_begin() const { return RegArgs.begin(); } reg_iterator argreg_end() const { return RegArgs.end(); } /// retreg_begin/retreg_end - Returns iterators to the set of registers /// containing the function return values. reg_iterator retreg_begin() const { return RegRets.begin(); } reg_iterator retreg_end() const { return RegRets.end(); } /// addRetReg - Adds a register to the set of return-value registers. void addRetReg(unsigned Reg) { if (!RegRets.count(Reg)) { RegRets.insert(Reg); std::string name; name = "%ret"; name += utostr(RegRets.size() - 1); RegNames[Reg] = name; } } /// addArgReg - Adds a register to the set of function argument registers. void addArgReg(unsigned Reg) { RegArgs.insert(Reg); std::string name; name = "%param"; name += utostr(RegArgs.size() - 1); RegNames[Reg] = name; } /// addVirtualRegister - Adds a virtual register to the set of all used /// registers in the function. void addVirtualRegister(const TargetRegisterClass *TRC, unsigned Reg) { std::string name; // Do not count registers that are argument/return registers. if (!RegRets.count(Reg) && !RegArgs.count(Reg)) { UsedRegs[TRC].push_back(Reg); if (TRC == PTX::RegPredRegisterClass) name = "%p"; else if (TRC == PTX::RegI16RegisterClass) name = "%rh"; else if (TRC == PTX::RegI32RegisterClass) name = "%r"; else if (TRC == PTX::RegI64RegisterClass) name = "%rd"; else if (TRC == PTX::RegF32RegisterClass) name = "%f"; else if (TRC == PTX::RegF64RegisterClass) name = "%fd"; else llvm_unreachable("Invalid register class"); name += utostr(UsedRegs[TRC].size() - 1); RegNames[Reg] = name; } } /// getRegisterName - Returns the name of the specified virtual register. This /// name is used during PTX emission. const char *getRegisterName(unsigned Reg) const { if (RegNames.count(Reg)) return RegNames.find(Reg)->second.c_str(); else if (Reg == PTX::NoRegister) return "%noreg"; else llvm_unreachable("Register not in register name map"); } /// getNumRegistersForClass - Returns the number of virtual registers that are /// used for the specified register class. unsigned getNumRegistersForClass(const TargetRegisterClass *TRC) const { return UsedRegs.lookup(TRC).size(); } /// getFrameSymbol - Returns the symbol name for the given FrameIndex. const char* getFrameSymbol(int FrameIndex) { if (FrameSymbols.count(FrameIndex)) { return FrameSymbols.lookup(FrameIndex).c_str(); } else { std::string Name = "__local"; Name += utostr(FrameIndex); // The whole point of caching this name is to ensure the pointer we pass // to any getExternalSymbol() calls will remain valid for the lifetime of // the back-end instance. This is to work around an issue in SelectionDAG // where symbol names are expected to be life-long strings. FrameSymbols[FrameIndex] = Name; return FrameSymbols[FrameIndex].c_str(); } } }; // class PTXMachineFunctionInfo } // namespace llvm #endif // PTX_MACHINE_FUNCTION_INFO_H